After you run the packing process (Flow + Pack) in SOLIDWORKS
Plastics, you can export the in-mold residual stresses and temperature data to a file
(*.POE) in a binary format that can be read by Simulation.
For plastic parts, by simulating the cooling down process from
temperatures sustained during the injection molding process to room temperature, you
can calculate the final residual stresses and deformed state of the part.
-
In SOLIDWORKS Plastics:
-
Complete the Flow+Pack analysis where the residual stresses are
calculated.
Select Residual Stress
Calculation in Pack
Setting PropertyManager.
-
Export the in-mold residual stresses in a binary file
format (*.POE).
The binary file stores:
- Node coordinates and element connectivity of the
original mesh
- Nodal values for temperature and in-mold
residual stresses (three normal and three shear stress
components)
- Material properties
In Export
PropertyManager, under Type
select SOLIDWORKS Simulation and
select In-mold Residual
Stress.
-
Create a Nonlinear Static Simulation study.
-
In the Simulation study tree:
-
Right-click External
Loads
, and select
In-mold Residual Stresses
.
-
Select Import in-mold
stresses from SOLIDWORKS Plastics and browse to the
location of the *.POE file.
If material has been assigned for the part in
SOLIDWORKS Plastics, the option Include
material from SOLIDWORKS Plastics is selected by
default. To apply a different material, clear this option and select a
material from the SOLIDWORKS Material database.
-
Click OK.
-
Mesh and run the nonlinear study.
If you are running a post-cooling analysis, in the
Solution tab in the Nonlinear - Static dialog box, select
Save data for restarting the
analysis.
After the analysis completes, you can plot the final residual
stresses and deformed shape of the part after it is completely cooled.
The room temperature is defined in Reference temperature at zero strain
(Flow/Thermal Effects tab).
The final deformed shape of the part (at pseudo time t = 1
sec) considers the effect of both the in-mold residual stresses (at pseudo
time t = 0) and quenching thermal stresses (at time t = 1 sec).
- The solver maps internally the nodal and element
connectivity information stored in the *.POE file to the new mesh created in Simulation.
- You can only import data from SOLIDWORKS Plastics for a
single part that meshes with solid elements and uses a linear elastic
isotropic material.
- You do not have to add fixtures to run the analysis. The
nonlinear solver internally applies soft springs to stabilize the part and
resolve stiffness singularities. Soft springs are applied to the diagonal
terms of the stiffness matrix with magnitudes depending on the underlying
material properties.